CN118217844A

CN118217844A - Extinction curing agent production line

Info

Publication number: CN118217844A
Application number: CN202410660191.8A
Authority: CN
Inventors: 徐达才; 周永明; 周亮; 徐来炳; 蔡章军
Original assignee: Huangshan Deping Chemical Co ltd
Current assignee: Huangshan Deping Chemical Co ltd
Priority date: 2024-05-27
Filing date: 2024-05-27
Publication date: 2024-06-21
Anticipated expiration: 2044-05-27
Also published as: CN118217844B

Abstract

The invention discloses a extinction curing agent production line, which belongs to the technical field of curing agent production and comprises a frame device, wherein the frame device is used for feeding, a heating device is arranged on the frame device and used for heating raw materials to a required temperature, a lifting device is arranged on the heating device, and a mixing device is arranged on the lifting device and used for processing the raw materials of an extinction curing agent. The frame device provided by the invention can feed various different raw materials respectively, can feed the raw materials in turn, ensures full feeding, and controls the discharging time of each control valve through sensor identification so as to control the consumption of each raw material; the mixing device provided by the invention is in a retracted state when not in use, can be taken out along with the upper cover more conveniently for cleaning, and can be automatically unlocked from the butt joint cylinder after the lifting device is contacted with the top plate, so that the upper cover and the mixing device can be taken out from the hole of the top plate conveniently, and the operation is convenient.

Description

Extinction curing agent production line

Technical Field

The invention relates to the technical field of curing agent production, in particular to a extinction curing agent production line.

Background

Matting curatives generally refer to a class of additives used in the curing process of photosensitive resins. During the photo-curing process, a photosensitive resin (e.g., an acrylic resin) is irradiated with ultraviolet light or visible light to initiate radical or ion polymerization, thereby achieving rapid curing. The extinction curing agent can absorb light to prevent or reduce light penetration, so as to limit the light curing depth, and the resin is cured only on the surface layer, while the inside is still in liquid or semi-solid state. The production of the matting curing agent is usually carried out by mixing the photosensitive resin with the matting curing agent and other additives to ensure uniform mixing. Mixing is typically carried out using stirring, agitators, high shear mixers, and the like. However, the conventional matting curing agent production device cannot perform automatic feeding for proportional distribution, and meanwhile, the cleaning of a stirring shaft and the like is very troublesome, and the whole device needs to be disassembled, so that the cleaning is very tedious.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the following technical scheme: the utility model provides a extinction curing agent production line, includes support body device, support body device include body frame and section of thick bamboo frame, support body device be used for the feeding, support body device on be provided with heating device, heating device include upright rail, upright rail fixed mounting is on the section of thick bamboo frame, heating device be used for heating the raw materials to the temperature of needs, heating device on be provided with elevating gear, elevating gear include butt joint section of thick bamboo and hybrid motor, butt joint section of thick bamboo slidable mounting is on upright rail, elevating gear on be provided with mixing device, mixing device including rotating the section of thick bamboo, the motor shaft of rotating section of thick bamboo and hybrid motor passes through connecting tube fixed mounting, mixing device be used for processing the extinction curing machine raw materials.

Further, the frame body device include fixed mounting on the body frame go up the frame, go up fixed mounting on the frame and have the balladeur train, fixed mounting has a section of thick bamboo frame on the balladeur train, go up fixed mounting on the frame and have feeding frame, fixed mounting has five feeding cylinders on the feeding frame, fixed mounting has inlet pipe and unloading pipe on the feeding cylinder, is provided with slider mechanism on the balladeur train, is provided with fixture block mechanism on the frame.

Further, the slider mechanism include slidable mounting on the carriage seal the piece, fixed mounting has the carriage on the sealed piece, fixed mounting has five control valves on the carriage, control valve and unloading pipe fixed mounting, fixed mounting has the rack on the carriage, fixed mounting has the switch motor on the upper bracket, fixed mounting has motor gear on the motor shaft of switch motor, motor gear and rack engagement, fixed mounting has the inner column on the carriage, slidable mounting has the butt joint cone on the inner column, is provided with extrusion spring between butt joint cone and the carriage, is provided with the feed inlet on the carriage.

Further, the clamping block mechanism comprises six clamping blocks fixedly arranged on the upper frame, the sensor is fixedly arranged on the clamping blocks, and the clamping blocks are slidably arranged with the butt joint cone.

Raw materials are respectively introduced into the feed cylinder through the feed pipe, in an initial state, the sealing block is positioned above the feed inlet, the switching motor rotates to drive the motor gear to rotate, so that the rack and the sliding frame are driven to slide, the sealing block and the control valve are driven to slide in the sliding frame, when the control valve reaches the upper part of the feed inlet, the control valve is opened, raw materials flow into the feed inlet through the feed cylinder and the feed pipe, and all raw materials are fed into the feed inlet through a similar method.

Along with the removal of carriage can drive butt joint awl section of thick bamboo and remove for butt joint awl section of thick bamboo is contact with the fixture block all the time through extrusion spring's compression and reset, and when butt joint awl section of thick bamboo reached every sensor the place ahead, the switching motor stall a period of time, make the control valve have in the feed inlet between abundant, when the butt joint awl section of thick bamboo arrives the sensor department of outermost side, the feed is accomplished, the switching motor stops rotating.

When each sensor senses the butt joint cone, the position of the different control valves is respectively identified, so that the discharging time of each control valve is controlled, the consumption of each raw material is controlled, each sensor corresponds to one control valve, the sensor at the outermost end corresponds to the sealing block, and when the position of the outermost sensor is triggered, the switching motor stops rotating.

Further, heating device include fixed mounting electric jar on a section of thick bamboo frame, electric jar top fixed mounting has a butt joint section of thick bamboo, fixed mounting has the roof on the upright rail, fixed mounting has a mixing drum on the upright rail, the mixing drum passes through the pipeline and is connected with the feed inlet, fixed mounting has the chassis on the mixing drum, fixed mounting has the bottom plate on the chassis, fixed mounting has the discharging pipe on the bottom plate, discharging pipe and mixing drum fixed mounting have a plurality of flaming mouths on the chassis, the flaming mouth passes through the gas pipe and links to each other with outside gas pipe, fixed mounting has an electric jar that opens and shuts on the discharging pipe, electric jar top fixed mounting that opens and shuts has the switch board, switch board and mixing drum reach exit orifice slidable mounting.

When the mixing device needs to be cleaned, the electric cylinder stretches to drive the butt joint cylinder to ascend along the vertical rail, and the butt joint cylinder is tightly pressed on the mixing cylinder through the electric cylinder in an initial state.

The raw materials in the mixing drum are heated through the flame spraying opening, the required temperature for production is provided, after the production is completed, the opening and closing electric cylinder is extended to drive the switch plate to rise, the switch plate does not block the outlet of the mixing drum any more, and the extinction curing agent after the production is completed flows out from the discharging pipe.

Further, the lifting device comprises an upper cover which is slidably arranged on the butt joint barrel, a mixing motor is fixedly arranged on the upper cover, and a plurality of clamping and pressing mechanisms are arranged on the butt joint barrel.

Further, the clamping and pressing mechanism comprises an outer frame and an inner frame which are fixedly arranged on the butt joint barrel, an upright post is fixedly arranged on the outer frame, a sliding clamp is arranged on the outer frame and the inner frame in a sliding mode, a long groove is formed in the sliding clamp and slides with the upright post, a rotating rod is rotatably arranged on the sliding clamp, a sliding barrel is rotatably arranged on the rotating rod, an upright post spring is arranged between the sliding barrel and the outer frame, a jacking block is fixedly arranged on the sliding barrel, and the sliding clamp is slidably arranged with a groove in the upper cover.

Under the initial condition, press upper cover on the butt joint section of thick bamboo through the slip card, when needs take out mixing arrangement and wash, the electric jar extends and drives the butt joint section of thick bamboo and rise, after kicking block and roof contact, the butt joint section of thick bamboo continues to rise, push down kicking block and slip section of thick bamboo through the roof, thereby make stand spring compressed, the slip section of thick bamboo descends and drives the bull stick and rotate, thereby drive the slip card and outwards slide, make the slip card leave upper cover top, can manually take out upper cover, mixing motor and mixing arrangement wholly this moment and wash.

Further, the mixing device comprises a rotary table fixedly arranged on a rotary cylinder, a plurality of unfolding sheets are rotatably arranged on the rotary cylinder, sliding blocks are slidably arranged on the unfolding sheets, and an extension spring is arranged between the unfolding sheets and the rotary cylinder.

Under the initial state, under extension spring's effect for the expansion piece is packed up, is convenient for follow the upper cover and takes out together, and after the raw materials all entered into the mixing drum, the mixing motor rotated and is driven the rotation of a section of thick bamboo to make the expansion piece rotate through centrifugal force effect, rotate for the rotation of a section of thick bamboo, extension spring is stretched, expansion piece and carousel laminating, and the slider slides the expansion piece outer end of expanding simultaneously, carries out mixed processing through the rotation of expansion piece and slider to the raw materials in the mixing drum.

Compared with the prior art, the invention has the beneficial effects that: (1) The frame device provided by the invention can feed various different raw materials respectively, can feed the raw materials in turn, ensures full feeding, and controls the discharging time of each control valve through sensor identification so as to control the consumption of each raw material; (2) The mixing device is in a retracted state when not in use, can be taken out along with the upper cover more conveniently for cleaning, and can be automatically unlocked from the butt-joint barrel after the lifting device is contacted with the top plate, so that the upper cover and the mixing device can be taken out from the hole of the top plate conveniently, and the operation is convenient; (3) After the mixing motor is started, the unfolding sheet is unfolded through the centrifugal force, and the raw materials are fully mixed through the sliding block and the unfolding sheet, so that the processing efficiency is high.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of a frame device according to the present invention.

Fig. 3 is a schematic diagram of a frame device according to a second embodiment of the present invention.

FIG. 4 is a schematic view of a slider mechanism according to the present invention.

FIG. 5 is a schematic view of a latch mechanism according to the present invention.

Fig. 6 is a schematic structural diagram of a heating device according to the present invention.

Fig. 7 is a schematic structural diagram of a heating device according to the present invention.

Fig. 8 is a schematic structural diagram of a lifting device according to the present invention.

Fig. 9 is a schematic structural diagram of a lifting device according to the second embodiment of the present invention.

FIG. 10 is a schematic view of a mixing device according to the present invention.

Fig. 11 is an enlarged partial schematic view of fig. 10a according to the present invention.

Reference numerals: 101-a main frame; 102-putting on a rack; 103-a feeding frame; 104-a feeding cylinder; 105-feeding pipe; 106-blanking pipe; 107-carriage; 108-a barrel holder; 109-switching the motor; 110-motor gear; 111-clamping blocks; 112-a sensor; 113-a carriage; 114-an inner column; 115-pressing the spring; 116-butt joint cone; 117-closing blocks; 118-control valve; 119-rack; 120-feeding port; 201-vertical rails; 202-top plate; 203-an electric cylinder; 204-a bottom plate; 205-mixing drum; 206-a flame spraying port; 207-gas pipe; 208-opening and closing the electric cylinder; 209-a discharge pipe; 210-a switch board; 211-a chassis; 301-butt joint cylinder; 302-upper cover; 303-a hybrid motor; 304-an outer frame; 305-slide card; 306-a rotating rod; 307-posts; 308-pillar spring; 309-a sliding cylinder; 310-top block; 311-inner frame; 401-rotating the barrel; 402-connecting the cylinders; 403-a turntable; 404-spreading the sheet; 405-stretching a spring; 406-a slider.

Detailed Description

The following describes the embodiments of the present invention further with reference to the drawings.

Examples: referring to fig. 1 to 11, a matting curing agent production line comprises a frame device, wherein the frame device comprises a main frame 101 and a barrel frame 108, the frame device is used for feeding, a heating device is arranged on the frame device, the heating device comprises a vertical rail 201, the vertical rail 201 is fixedly arranged on the barrel frame 108, the heating device is used for heating raw materials to a required temperature, a lifting device is arranged on the heating device, the lifting device comprises a butt joint barrel 301 and a mixing motor 303, the butt joint barrel 301 is slidably arranged on the vertical rail 201, the lifting device is provided with a mixing device, the mixing device comprises a rotating barrel 401, the rotating barrel 401 and a motor shaft of the mixing motor 303 are fixedly arranged through a connecting barrel 402, and the mixing device is used for processing the raw materials of the matting curing agent.

As shown in fig. 1 to 5, the frame body device includes an upper frame 102 fixedly mounted on a main frame 101, a carriage 107 is fixedly mounted on the upper frame 102, a cylinder frame 108 is fixedly mounted on the carriage 107, a feeding frame 103 is fixedly mounted on the upper frame 102, five feeding cylinders 104 are fixedly mounted on the feeding frame 103, a feeding pipe 105 and a discharging pipe 106 are fixedly mounted on the feeding cylinders 104, a sliding block mechanism is arranged on the carriage 107, and a clamping block mechanism is arranged on the upper frame 102.

As shown in fig. 2 to 5, the slider mechanism includes a closing block 117 slidably mounted on the carriage 107, a carriage 113 is fixedly mounted on the closing block 117, five control valves 118 are fixedly mounted on the carriage 113, the control valves 118 are fixedly mounted on the blanking pipe 106, a rack 119 is fixedly mounted on the carriage 113, a switching motor 109 is fixedly mounted on the upper frame 102, a motor gear 110 is fixedly mounted on a motor shaft of the switching motor 109, the motor gear 110 is meshed with the rack 119, an inner column 114 is fixedly mounted on the carriage 113, a butt joint cone 116 is slidably mounted on the inner column 114, a compression spring 115 is arranged between the butt joint cone 116 and the carriage 113, and a feed inlet 120 is arranged on the carriage 107.

As shown in fig. 2-5, the fixture block mechanism comprises six fixture blocks 111 fixedly mounted on the upper frame 102, a sensor 112 is fixedly mounted on the fixture blocks 111, and the fixture blocks 111 are slidably mounted with the butt-joint cone 116.

Raw materials are respectively introduced into the feed cylinder 104 through the feed pipe 105, the sealing block 117 is positioned above the feed port 120 in an initial state, the switching motor 109 rotates to drive the motor gear 110 to rotate, the rack 119 and the sliding frame 113 are driven to slide, the sealing block 117 and the control valve 118 are driven to slide in the sliding frame 107, when the control valve 118 reaches the position above the feed port 120, the control valve 118 is opened, raw materials flow into the feed port 120 through the feed cylinder 104 and the blanking pipe 106, and all raw materials are fed into the feed port 120 through a similar method.

Along with the movement of the sliding frame 113, the butt-joint cone 116 is driven to move, the butt-joint cone 116 is always in contact with the clamping block 111 through the compression and the reset of the extrusion spring 115, when the butt-joint cone 116 reaches the front of each sensor 112, the switching motor 109 stops rotating for a period of time, the control valve 118 is fully fed into the feed inlet 120, and when the butt-joint cone 116 reaches the outermost sensor 112, the feeding is completed, and the switching motor 109 stops rotating.

When each sensor 112 senses the butt joint cone 116, different control valves 118 are respectively identified to be positioned at the feed inlet 120, so that the discharging time of each control valve 118 is controlled, the consumption of each raw material is controlled, each sensor 112 corresponds to one control valve 118, the outermost sensor 112 corresponds to the sealing block 117, and when the outermost sensor 112 is triggered, the switching motor 109 stops rotating.

As shown in fig. 6 and 7, the heating device includes an electric cylinder 203 fixedly installed on a cylinder frame 108, a butt joint cylinder 301 is fixedly installed at the top of the electric cylinder 203, a top plate 202 is fixedly installed on a vertical rail 201, a mixing cylinder 205 is fixedly installed on the vertical rail 201, the mixing cylinder 205 is connected with a feeding port 120 through a pipeline, a bottom frame 211 is fixedly installed on the mixing cylinder 205, a bottom plate 204 is fixedly installed on the bottom plate 211, a discharging pipe 209 is fixedly installed on the bottom plate 204, the discharging pipe 209 is fixedly installed with the mixing cylinder 205, a plurality of fire-spraying ports 206 are fixedly installed on the bottom frame 211, the fire-spraying ports 206 are connected with an external gas pipe through a gas pipe 207, an opening and closing electric cylinder 208 is fixedly installed on the discharging pipe 209, a switch plate 210 is fixedly installed at the top of the opening and closing electric cylinder 208, and the switch plate 210 and the mixing cylinder 205 reach an outlet hole to be slidingly installed.

When the mixing device needs to be cleaned, the electric cylinder 203 stretches to drive the butt joint cylinder 301 to ascend along the vertical rail 201, and the butt joint cylinder 301 is pressed on the mixing cylinder 205 through the electric cylinder 203 in an initial state.

The raw materials in the mixing drum 205 are heated through the flame spraying opening 206 to provide the temperature required by production, when the production is completed, the opening and closing electric cylinder 208 stretches to drive the switch plate 210 to rise, the switch plate 210 does not block the outlet of the mixing drum 205 any more, and the produced extinction curing agent flows out of the discharging pipe 209.

As shown in fig. 8 and 9, the lifting device comprises an upper cover 302 slidably mounted on a docking cylinder 301, a mixing motor 303 is fixedly mounted on the upper cover 302, and a plurality of clamping and pressing mechanisms are arranged on the docking cylinder 301.

As shown in fig. 8 and 9, the clamping mechanism comprises an outer frame 304 and an inner frame 311 which are fixedly mounted on the butt joint barrel 301, a column 307 is fixedly mounted on the outer frame 304, a sliding card 305 is slidably mounted on the outer frame 304 and the inner frame 311, a long groove is formed in the sliding card 305, a rotating rod 306 is rotatably mounted on the sliding card 305 through the long groove and the column 307, a sliding barrel 309 is rotatably mounted on the rotating rod 306, a column spring 308 is arranged between the sliding barrel 309 and the outer frame 304, a top block 310 is fixedly mounted on the sliding barrel 309, and the sliding card 305 is slidably mounted with a groove in the upper cover 302.

In the initial state, the upper cover 302 is pressed on the butt-joint cylinder 301 through the sliding card 305, when the mixing device is required to be taken out for cleaning, the electric cylinder 203 stretches to drive the butt-joint cylinder 301 to ascend, after the top block 310 is contacted with the top plate 202, the butt-joint cylinder 301 continues to ascend, the top block 310 and the sliding cylinder 309 are pressed downwards through the top plate 202, so that the upright post spring 308 is compressed, the sliding cylinder 309 descends to drive the rotating rod 306 to rotate, the sliding card 305 is driven to slide outwards, the sliding card 305 is enabled to leave above the upper cover 302, and at the moment, the upper cover 302, the mixing motor 303 and the mixing device can be taken out manually for cleaning.

As shown in fig. 10 and 11, the mixing device comprises a turntable 403 fixedly mounted on a rotary drum 401, a plurality of unfolding pieces 404 rotatably mounted on the rotary drum 401, a sliding block 406 slidably mounted on the unfolding pieces 404, and a tension spring 405 arranged between the unfolding pieces 404 and the rotary drum 401.

In the initial state, under the effect of extension spring 405, make expansion piece 404 pack up, be convenient for follow upper cover 302 and take out together, after the raw materials all entered into mixing section of thick bamboo 205, mixing motor 303 rotates and drives the rotation section of thick bamboo 401 and rotate, thereby make expansion piece 404 rotate through centrifugal force, for rotation section of thick bamboo 401 rotation, extension spring 405 is stretched, expansion piece 404 is laminated with carousel 403, simultaneously slider 406 slides to expansion piece 404 extreme, carry out the mixed processing to the raw materials in the mixing section of thick bamboo 205 through the rotation of expansion piece 404 and slider 406.

The invention discloses a working principle of a extinction curing agent production line, which comprises the following steps: raw materials are respectively introduced into the feed cylinder 104 through the feed pipe 105, the sealing block 117 is positioned above the feed port 120 in an initial state, the switching motor 109 rotates to drive the motor gear 110 to rotate, the rack 119 and the sliding frame 113 are driven to slide, the sealing block 117 and the control valve 118 are driven to slide in the sliding frame 107, when the control valve 118 reaches the position above the feed port 120, the control valve 118 is opened, raw materials flow into the feed port 120 through the feed cylinder 104 and the blanking pipe 106, and all raw materials are fed into the feed port 120 through a similar method. Along with the movement of the sliding frame 113, the butt-joint cone 116 is driven to move, the butt-joint cone 116 is always in contact with the clamping block 111 through the compression and the reset of the extrusion spring 115, when the butt-joint cone 116 reaches the front of each sensor 112, the switching motor 109 stops rotating for a period of time, the control valve 118 is fully fed into the feed inlet 120, and when the butt-joint cone 116 reaches the outermost sensor 112, the feeding is completed, and the switching motor 109 stops rotating. In the initial state, under the effect of extension spring 405, make expansion piece 404 pack up, be convenient for follow upper cover 302 and take out together, after the raw materials all entered into mixing section of thick bamboo 205, mixing motor 303 rotates and drives the rotation section of thick bamboo 401 and rotate, thereby make expansion piece 404 rotate through centrifugal force, for rotation section of thick bamboo 401 rotation, extension spring 405 is stretched, expansion piece 404 is laminated with carousel 403, simultaneously slider 406 slides to expansion piece 404 extreme, carry out the mixed processing to the raw materials in the mixing section of thick bamboo 205 through the rotation of expansion piece 404 and slider 406. The raw materials in the mixing drum 205 are heated through the flame spraying opening 206 to provide the temperature required by production, when the production is completed, the opening and closing electric cylinder 208 stretches to drive the switch plate 210 to rise, the switch plate 210 does not block the outlet of the mixing drum 205 any more, and the produced extinction curing agent flows out of the discharging pipe 209.

When the mixing device needs to be cleaned, the electric cylinder 203 stretches to drive the butt joint cylinder 301 to ascend along the vertical rail 201, and the butt joint cylinder 301 is pressed on the mixing cylinder 205 through the electric cylinder 203 in an initial state. In the initial state, the upper cover 302 is pressed on the butt-joint cylinder 301 through the sliding card 305, when the mixing device is required to be taken out for cleaning, the electric cylinder 203 stretches to drive the butt-joint cylinder 301 to ascend, after the top block 310 is contacted with the top plate 202, the butt-joint cylinder 301 continues to ascend, the top block 310 and the sliding cylinder 309 are pressed downwards through the top plate 202, so that the upright post spring 308 is compressed, the sliding cylinder 309 descends to drive the rotating rod 306 to rotate, the sliding card 305 is driven to slide outwards, the sliding card 305 is enabled to leave above the upper cover 302, and at the moment, the upper cover 302, the mixing motor 303 and the mixing device can be taken out manually for cleaning.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the technical scope of the present invention, should make equivalent substitutions or modifications according to the technical solution of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The utility model provides a extinction curing agent production line, includes support body device, its characterized in that: the frame body device comprises a main frame (101) and a barrel frame (108), the frame body device is used for feeding, a heating device is arranged on the frame body device, the heating device comprises a vertical rail (201), the vertical rail (201) is fixedly arranged on the barrel frame (108), the heating device is used for heating raw materials to a required temperature, a lifting device is arranged on the heating device and comprises a butt joint barrel (301) and a mixing motor (303), the butt joint barrel (301) is slidably arranged on the vertical rail (201), the lifting device is provided with a mixing device, the mixing device comprises a rotary barrel (401), the rotary barrel (401) is fixedly arranged with a motor shaft of the mixing motor (303) through a connecting barrel (402), and the mixing device is used for processing raw materials of the photo-curing machine;

The frame body device comprises an upper frame (102) fixedly arranged on a main frame (101), a sliding frame (107) is fixedly arranged on the upper frame (102), a cylinder frame (108) is fixedly arranged on the sliding frame (107), a feeding frame (103) is fixedly arranged on the upper frame (102), five feeding cylinders (104) are fixedly arranged on the feeding frame (103), a feeding pipe (105) and a discharging pipe (106) are fixedly arranged on the feeding cylinders (104), a sliding block mechanism is arranged on the sliding frame (107), and a clamping block mechanism is arranged on the upper frame (102);

The sliding block mechanism comprises a sealing block (117) which is slidably arranged on a sliding frame (107), a sliding frame (113) is fixedly arranged on the sealing block (117), five control valves (118) are fixedly arranged on the sliding frame (113), the control valves (118) are fixedly arranged with a blanking pipe (106), a rack (119) is fixedly arranged on the sliding frame (113), a switching motor (109) is fixedly arranged on an upper frame (102), a motor gear (110) is fixedly arranged on a motor shaft of the switching motor (109), the motor gear (110) is meshed with the rack (119), an inner column (114) is fixedly arranged on the sliding frame (113), a butt joint cone (116) is slidably arranged on the inner column (114), an extrusion spring (115) is arranged between the butt joint cone (116) and the sliding frame (113), and a feed inlet (120) is arranged on the sliding frame (107);

The clamping block mechanism comprises six clamping blocks (111) fixedly arranged on the upper frame (102), a sensor (112) is fixedly arranged on the clamping blocks (111), and the clamping blocks (111) and the butt joint cone (116) are slidably arranged.

2. A matting hardener production line according to claim 1, characterised in that: the heating device comprises an electric cylinder (203) fixedly mounted on a cylinder frame (108), a butt joint cylinder (301) is fixedly mounted at the top of the electric cylinder (203), a top plate (202) is fixedly mounted on a vertical rail (201), a mixing cylinder (205) is fixedly mounted on the vertical rail (201), the mixing cylinder (205) is connected with a feeding port (120) through a pipeline, a bottom frame (211) is fixedly mounted on the mixing cylinder (205), a bottom plate (204) is fixedly mounted on the bottom plate (211), a discharging pipe (209) is fixedly mounted on the bottom plate (204), the discharging pipe (209) is fixedly mounted with the mixing cylinder (205), a plurality of flame spraying ports (206) are fixedly mounted on the bottom frame (211), the flame spraying ports (206) are connected with an external gas pipe through gas pipes, a switching cylinder (208) is fixedly mounted on the discharging pipe (209), a switching plate (210) is fixedly mounted at the top of the switching cylinder (208), and the switching plate (210) and the mixing cylinder (205) reach an outlet hole to be slidably mounted.

3. A matting hardener production line according to claim 1, characterised in that: the lifting device comprises an upper cover (302) which is slidably arranged on the butt joint barrel (301), a mixing motor (303) is fixedly arranged on the upper cover (302), and a plurality of clamping and pressing mechanisms are arranged on the butt joint barrel (301).

4. A matting hardener production line according to claim 3, characterised in that: the clamping and pressing mechanism comprises an outer frame (304) and an inner frame (311) which are fixedly arranged on a butt joint cylinder (301), an upright post (307) is fixedly arranged on the outer frame (304), a sliding card (305) is slidably arranged on the outer frame (304) and the inner frame (311), a long groove is arranged on the sliding card (305), the sliding card (305) is slidably moved through the long groove and the upright post (307), a rotating rod (306) is rotatably arranged on the sliding card (305), a sliding cylinder (309) is rotatably arranged on the rotating rod (306), an upright post spring (308) is arranged between the sliding cylinder (309) and the outer frame (304), a jacking block (310) is fixedly arranged on the sliding cylinder (309), and the sliding card (305) is slidably arranged with a groove on an upper cover (302);

the butt joint barrel (301) is pressed on the mixing barrel (205) through the electric cylinder (203).

5. A matting hardener production line according to claim 1, characterised in that: the mixing device comprises a rotary table (403) fixedly arranged on a rotary drum (401), and six unfolding mechanisms are arranged on the rotary drum (401).

6. A matting hardener production line according to claim 5, characterised in that: the unfolding mechanism comprises an unfolding sheet (404) rotatably mounted on a rotary cylinder (401), a sliding block (406) is slidably mounted on the unfolding sheet (404), and an extension spring (405) is arranged between the unfolding sheet (404) and the rotary cylinder (401).

7. The production line of the extinction curing agent is characterized by comprising the following operation modes: the raw materials are respectively introduced into the feeding cylinders (104) through the feeding pipes (105);

In the initial state, the sealing block (117) is positioned above the feed inlet (120), the switching motor (109) rotates to drive the motor gear (110) to rotate, so as to drive the rack (119) and the sliding frame (113) to slide, so as to drive the sealing block (117) and the control valve (118) to slide in the sliding frame (107), when the control valve (118) reaches above the feed inlet (120), the control valve (118) is opened, raw materials flow into the feed inlet (120) through the feed cylinder (104) and the blanking pipe (106), and all raw materials are fed into the feed inlet (120) through a similar method;

The butt joint cone (116) is driven to move along with the movement of the sliding frame (113), the butt joint cone (116) is always in contact with the clamping block (111) through compression and reset of the extrusion spring (115), when the butt joint cone (116) reaches the front of each sensor (112), the switching motor (109) stops rotating for a period of time, the control valve (118) is fully fed into the feed port (120), and when the butt joint cone (116) reaches the outermost sensor (112), the feeding is completed, and the switching motor (109) stops rotating;

In an initial state, under the action of an extension spring (405), the expansion sheet (404) is retracted and is convenient to take out from the following upper cover (302), after all raw materials enter the mixing drum (205), the mixing motor (303) rotates to drive the rotating drum (401) to rotate, so that the expansion sheet (404) is expanded by centrifugal force, the expansion sheet (404) rotates relative to the rotating drum (401), the extension spring (405) is stretched, the expansion sheet (404) is attached to the turntable (403), meanwhile, the sliding block (406) slides to the outermost end of the expansion sheet (404), and raw materials in the mixing drum (205) are mixed and processed through rotation of the expansion sheet (404) and the sliding block (406); heating the raw materials in the mixing drum (205) through a flame spraying port (206) to provide a temperature required for production; when the production is completed, the opening and closing electric cylinder (208) stretches to drive the switch plate (210) to rise, the switch plate (210) does not block the outlet of the mixing drum (205) any more, and the produced extinction curing agent flows out from the discharging pipe (209);

When the mixing device is required to be cleaned, the electric cylinder (203) stretches to drive the butt joint cylinder (301) to ascend along the vertical rail (201); in the initial state, the butt joint cylinder (301) is tightly pressed on the mixing cylinder (205) through the electric cylinder (203); in an initial state, the upper cover (302) is pressed on the butt joint cylinder (301) through the sliding card (305), when the mixing device is required to be taken out for cleaning, the electric cylinder (203) stretches to drive the butt joint cylinder (301) to ascend, after the top block (310) is contacted with the top plate (202), the butt joint cylinder (301) continues to ascend, the top block (310) and the sliding cylinder (309) are pressed downwards through the top plate (202), so that the upright post spring (308) is compressed, the sliding cylinder (309) descends to drive the rotating rod (306) to rotate, the sliding card (305) is driven to slide outwards, the sliding card (305) leaves above the upper cover (302), and the upper cover (302), the mixing motor (303) and the mixing device can be taken out integrally for cleaning manually.